Abstract: Claims of “Free Energy” generation using Perpetual Motion Machines (PMM) are usually discounted by the scientific community since PMMs are considered impossible, as a direct corollary of the Law of Conservation of Energy. However for the scientifically inquisitive mind, the urge to distill reasons which make some systems appear as PMMs, remains a factor.More than 90% world’s power is being generated using electromagnets based on the faraday’s law of electro-magnetic induction. Many new technologies were discovered with time which led a drastic change in the perception of electric energy. But at the same time there is misconception of FREE ENERGY. Energy becomes free only at a point after which we don’t have to pay for power generation after commissioning the unit. By using the magnetic force of magnets continuous motion (Energy) is generated. We used Neodymium magnets are placed on the fins of the fan which has a capacity of 1-1.4 T[1].Disc shaped magnets are placed in such a way that all the north poles or south poles are facing one direction. This magnet also produces a magnetic field, so both the magnetic fields repel each other (like poles repel), which causes the fins to move. The free Energy Generator was fitted onto the 2 wheelers in-front. The power extracted was used to charge a mobile battery. Few positive results are motivating us to create a better model to store the energy and use for different necessary applications by using this free energy. In this research paper, the usage of free energy was noticed by using a magnet and few satisfactory results are motivating us to review little research ground work of magnets to create a perfect strong prototype for better applications.
Keywords: Electromagnetic Induction, free energy, neodymium magnets, MOC
References:1.What is a Strong Magnet?” The Magnetic Matters Blog. Adams Magnetic Products. October 5, 2012. Retrieved October 12, 2012.
2.http://www.freemagneticenergy.info/
3.Johnson, Howard R: US Patent # 4,151,431 (April 24, 1979), "Permanent Magnet Motor".
4.Boost Converter Operation". LT1070 Design Manual, Carl Nelson & Jim Williams
5.http://free-energi.com
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7.S.Techn and H.C.Peter. Magnetic bearing and some new application.
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9.R.Moser and J.Sandtner. Optimization of repulsive passive magnetic bearing. IEEE Trans on Magnetics, Aug. 2006; 42(8): 2038–2042. [10] K.Pullo. Perpetual motion magnetic machine(pm3). [Online]. Available: http://www.geocities.com/kpullo/PM3.htm
10.Romero. Selfrunning free energy muller motor generator from user romerouk powering a 20 watts bulb. [Online]. Available: http://www.youtube.com/watch?v=nn090-fm9TU
11.N. T. YI, Investigation of the Free Energy Magnet Motor, Faculty of Engineering and Science University Tunko Abdul Rahman,Malaysia,2011.
12.H.Aspden, The Physics of Perpetual Motion, Energy Sciece Limited England, 2004.
13.E. A.Omar, C.Alberto, New Elements of Relativistic Electrodynamics for Generating Useful Work from Perpetual Magnets, A Review.
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Abstract: For many years plastics were well known merely as INSULATORS and were used predominantly for shielding copper wires. Now the emerging new technology POLYTRONICS, changes our viewpoint in visualizing the conducting polymers as a material of MICROELECTRONICS. Microelectronics technology in conjunction with silicon is flexible enough to easy rolling up of circuits that consume less power and above all they can be manufactured at a fraction of cost involved in making semiconductor chips. This technology has number of upcoming areas of interest where lot of research is going on to manufacture microelectronic components on plastic substrates which would allow manufacturing of gadgets through just printing process.
Keywords: Insulators, Polytronics, Microelectronics
References:1.PC-6: Manual for the Poly-com "6" Transceiver for 6 meters. Compliments of Larry Saletzki, WA9VRH.http://bama.sbc.edu/polytronics.htm
2.T.Makimoto and T.T.Doi, “Polytronics – Present and future,” in Tech.Dig.Electronics Technologies Meeting,IEDM’02,2002,pp.9-16.
3.ww.hktdc.com/manufacturers/ /Polytronic-Technology.../1X04EUI0/
4.www.pttc.com

Abstract: The conceptual design of buildings requires the unity of compositional, functional, constructive, technological, aesthetical and other characteristics. In this paper is reviewed a solution of the authors which includes the above-mentioned characteristics in order to achieve a high degree of competitiveness in an international high-rise building design competition and namely Superskyscrapers Sky Velodrome Toronto 2015.

Abstract:In this paper, a mobile prescription reminder and scheduling system application is designed and implemented. By using the application, users are able to create and manage prescriptions and are reminded to take the medication based on the prescription data. Besides, users are able to reach the prospectuses of the drugs. Since the medicine compliance is very important to have an effective treatment, the main goal of this application is to help people to take their medicines on time and find the prospectus information of the drugs easily by using their mobile phones.Keywords:iOS, Medicine Compliance, Mobile Application, SmartphoneReferences:1.B. Kocurek, “Promoting Medication Adherence in Older Adults and the Rest of Us”, Diabetes Spectrum, vol. 22, no. 2, pp. 80–84, 2009.2.J. M. Silva, A. Mouttham, and A. E. Saddik, “UbiMeds: A Mobile Application to Improve Accessibility and Support Medication Adherence”, Proceedings of the 1st ACM SIGMM international workshop on Media studies and implementations that help improving access to disabled users - MSIADU ’09, 2009.3.About the iOS Technologies (2014, Sep. 17) [Online]. Available: https://developer.apple.com/library/ios/documentation/Miscellaneous /Conceptual/iPhone OS Tech Overview/Introduction/Introduction.html.4.Local and Remote Notifications in Depth (2015, Mar. 09) [Online].Available: https://developer.apple.com/library/mac/documentation NetworkingInternet/Conceptual/RemoteNotificationsPG/Chapters/WhatAreRemoteNotif.html.

Abstract: The main domain of interest in this paper is the implementation of solutions for Internet of Things in order to meet the ever-increasing demands on modern network management. There are a lot unsolved problems regarding system management in IoT. It is a normal process at the beginning of the development of suitable management architectures, to start with enhancement of well-known management approaches, models and functions. As a result, the work presents a conceptual framework in order to demonstrate how to incorporate IoT technologies and how to elaborate requirements and possible advantages. This article also provides examples with concrete IoT solutions and their possible application in the framework as a final proof-of-concept.
Keywords: Internet of Things, network management, architectural framework, out-of-band model
References:1.Haller S., S. Karnouskos, C. Schroth “The Internet of Things in an enterprise context”, Vienna: Springer, pp. 14-28, 2008
2.Pavlou G., “OSI Systems Management, Internet SNMP and ODP/OMG CORBA as Technologies for Telecommunications Network Management”, Telecommunications Network Management: Technologies and Implementations, pp. 63-109, IEEE Press, 1998
3.Lamaazi H., N. Benamar, A. J. Jara, L. Ladid and D. El Ouadghiri, “Challenges of the Internet of Things: IPv6 and Network Management”, Eighth International Conference on Innovative Mobile and Internet Services in Ubiquitous Computing, pp. 329-333, 2014
4.Marotta M. and all, “Evaluating Management Architectures for Internet of Things Devices”, IFIP Wireless Days (WD), pp. 1-7, 2014
5.Ma M., P. Wang, Chao-H. Chu, “Data Management for Internet of Things: Challenges, Approaches and Opportunities”, IEEE International Conference on GreenComputing and Communications and IEEE Internet of Things and IEEE Cyber Physical and Social Computing, pp. 1144-1151, 2013
6.Stallings W., “SNMPv3: A security enhancement for SNMP”, IEEE Press, 1998
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51-54

10.

Authors:

S. K. Patil, P. M. Pawar

Paper Title:

Development and Analysis of Low Cost Sheet Structure using Agricultural Waste

Εvaluation of Reliability of Hellenic Positioning System (HEPOS) in Forest and Forest Area

Abstract: Permanent reference station networks have been already established all over the world and used with success in geodetic and surveying applications for high accuracy positioning. Following the example of this development, the Hellenic Positioning System (HEPOS) was created in Greece. The system constitutes the first Greek Network of Permanent GPS Reference Stations. The aim of the paper is to evaluate the reliability of the system in forest and forest lands. So an implementation of the system HEPOS and three RTK techniques of it – Single-Base, technique with Virtual Reference Stations (VRS-RTK) and Network DGPS –took place in five different forest environments: a) in an axis of forest road, b) under the canopy of high forest of broadleaf oak (Quercus frainetto), c) in forest grassland, d) in an urban type environment (buildings in forest environment) and e) a trigonometric point. The measurements were carried out in the University forest of Taxiarhi-Vrastanon Halkidikis. The results shows that the Single Base technique provides more precise results than the VRS technique, while the latter proved more effective than the Network DGPS technique under the canopy of high forest of broadleaf oak (Quercus frainetto) and in an urban type environment (buildings in forest environment). A variation in relation to the above conclusion is observed in measurements on the axis of the forest road, in the forestal grassland and on the trigonometric point, where the Single Base and VRS techniques appear to be equal and in any case superior to the technical Network DGPS technique. As for the measurement environments, the best results of positional accuracy were presented in order of priority, on the trigonometric point, in the forestal grassland, in the urban type environment (buildings in forest environment), in the axis of forestal road and finally under the canopy of high forest of broadleaf oak (Quercus frainetto). In the DGPS technique the line was different with the best results appear in the forestal grassland, then in the trigonometric point, in urban type environment (buildings in forest environment), in the axis of forestal road and finally under the canopy of high forest of broadleaf oak (Quercus frainetto).
Keywords: Permanent reference station, VRS, MAC, Single Base, Network DGPS, RTK, accuracy.
References:1.Administration and management fund of University Forests, 2001:management project of University Forest of Taxiarxi-Brastannon 2002-2011, First Part, Taxiarxis, Greece, 2001.
2.Burlet, E., 2001 : Global Positioning System. Grundlagen und Anwendungsmöglichkeiten im Forstwesen, lecture notes, ETH Zürich, pp 8/39 Zürich 2001.
3.Delicaraoglou, D., (2006): Prospects from the network infrastructure of HEPOS for the transmission of spatial information via Web service and radio mobile modem. In 9ο national conference of cartography, Chania, Greece, 2006.
4.Doukas, Κ., 2001: land survey of agricultural and forest tracts, Giahoudi –Giapouli, pp 320 Thessaloniki 2001.
5.Fotiou, A. and Pikridas, X., 2006: GPS and geodetic applications, Ziti, pp 319 Thessaloniki 2006.
6.Gianniou, Μ. and Mastoris, D., (2006): Development of the Greek positioning system HEPOS. In fourth panhellenic conference HellasGIS, Αthens, Greece, 2006.
7.Gianniou, M., (2008a): HEPOS and modern network GPS techniques. In two days conference: HEPOS and modern geodetic reference systems: Theory and implementation, prospects and applications, Aristotle University of Thessaloniki, Thessaloniki, Greece, 2008.
8.Gianniou, M., (2008b): HEPOS: Modern network-based GPS surveying, www. hepos.gr, (accessed January 06, 2012).
9.Gianniou, M.,2008c: HEPOS: Designing and implementing an RTK-Network GEOinformatics January/February 2008, pp. 10-13.
10.Ktimatologio SA (2007): Technical training requirements of forest maps, Athens, Greece, 2007.
11.Landau, H., Vollath, U. and Chen, X., 2002: Virtual Reference Station Systems, Journal of Global Positioning Systems, Vol. 1, No. 2: 137-143.
12.Piedallu, C. and Gégout, J.-C., 2005: Effects of Forest Environment and Survey Protocol on GPS Accuracy, Photogrammetric Engineering & Remote Sensing Vol. 71, No. 9, September 2005, pp. 1071–1078.
13.Rodríguez-Pérez, J., Álvarez, R., Flor, M., Sanz, E. and Gavela, A. (2006): Comparison of GPS Receiver Accuracy and Precision in Forest Environments. Practical Recommendations Regarding Methods and Receiver Selection. In XXIII FIG Congress, Shaping the Change, Munich, Germany, 2006.